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CONSENSUS STATEMENT
EAES recommendations for the management of gastroesophagealreflux disease
Karl Hermann Fuchs • Benjamin Babic • Wolfram Breithaupt • Bernard Dallemagne •
Abe Fingerhut • Edgar Furnee • Frank Granderath • Peter Horvath •
Peter Kardos • Rudolph Pointner • Edoardo Savarino • Maud Van Herwaarden-Lindeboom •
Giovanni Zaninotto
Received: 20 December 2013 / Accepted: 8 January 2014 / Published online: 2 May 2014
� Springer Science+Business Media New York 2014
Abstract
Background Gastroesophageal reflux disease (GERD) is
one of the most frequent benign disorders of the upper
gastrointestinal tract. Management of GERD has always
been controversial since modern medical therapy is very
effective, but laparoscopic fundoplication is one of the few
procedures that were quickly adapted to the minimal access
technique. The purpose of this project was to analyze the
current knowledge on GERD in regard to its pathophysi-
ology, diagnostic assessment, medical therapy, and surgical
therapy, and special circumstances such as GERD in
children, Barrett’s esophagus, and enteroesophageal and
duodenogastroesophageal reflux.
Methods The European Association of Endoscopic Sur-
gery (EAES) has tasked a group of experts, based on their
clinical and scientific expertise in the field of GERD, to
establish current guidelines in a consensus development
conference. The expert panel was constituted in May 2012
and met in September 2012 and January 2013, followed by
a Delphi process. Critical appraisal of the literature was
accomplished. All articles were reviewed and classified
according to the hierarchy of level of evidence and sum-
marized in statements and recommendations, which were
presented to the scientific community during the EAES
yearly conference in a plenary session in Vienna 2013. A
second Delphi process followed discussion in the plenary
session.
Results Recommendations for pathophysiologic and epi-
demiologic considerations, symptom evaluation, diagnostic
workup, medical therapy, and surgical therapy are pre-
sented. Diagnostic evaluation and adequate selection of
patients are the most important features for success of the
current management of GERD. Laparoscopic fundoplica-For the European Association of Endoscopic Surgery.
K. H. Fuchs (&) � B. Babic � W. Breithaupt
Department of Surgery, AGAPLESION Markus Krankenhaus,
Wilhelm-Epstein-Str. 4, 60431 Frankfurt, Germany
e-mail: karl-hermann.fuchs@fdk.info
B. Dallemagne
IRCAD Institute, Strasbourg, France
A. Fingerhut
Poissy, France
E. Furnee
University Medical Center Utrecht, Utrecht, The Netherlands
F. Granderath
Department of Surgery, Krankenhaus Neuwerk,
Monchengladbach, Germany
P. Horvath
Department of Surgery, University of Pecs, Pecs, Hungary
P. Kardos
Group Practice & Respiratory Unit, Maingau Krankenhaus,
Frankfurt, Germany
R. Pointner
Department of Surgery, Krankenhaus Zell am See, Zell am See,
Austria
E. Savarino
Department of Gastroenterology, University of Padua, Padua,
Italy
M. Van Herwaarden-Lindeboom
Department of Pediatric Surgery, University of Utrecht, Utrecht,
The Netherlands
G. Zaninotto
Department of Surgery, Imperial College, London, UK
123
Surg Endosc (2014) 28:1753–1773
DOI 10.1007/s00464-014-3431-z
and Other Interventional Techniques
tion is the most important therapeutic technique for the
success of surgical therapy of GERD.
Conclusions Since the background of GERD is multi-
factorial, the management of this disease requires a com-
plex approach in diagnostic workup as well as for medical
and surgical treatment. Laparoscopic fundoplication in
well-selected patients is a successful therapeutic option.
Keywords GERD � Gastroesophageal reflux disease �Laparoscopic fundoplication � Barrett’s esophagus � Proton
pump inhibitor � PPI
Gastroesophageal reflux disease (GERD) is one of the most
frequent benign disorders of the upper gastrointestinal
tract. Management of GERD has always been controversial
since modern medical therapy is very effective, but lapa-
roscopic fundoplication is one of the few procedures that
was quickly adapted to the minimal access technique and
developed a large following in surgery. There have been
several consensus conferences in the past that parallel the
new developments in the diagnostic and therapeutic man-
agement of the disease [1–6], including one from the EAES
(European Association of Endoscopic Surgery and Allied
Techniques) [1]. In view of the expanding amount of lit-
erature, the boards of the EAES have decided to renew its
guidelines on GERD by establishing a new consensus
conference in 2013.
The purpose of this project was to analyze current
knowledge on GERD in regard to its pathophysiology,
diagnostic assessment, medical therapy, and surgical ther-
apy, and special circumstances such as GERD in children,
Barrett’s esophagus, and enteroesophageal and duodeno-
gastroesophageal reflux.
Material and methods
Constitution of the expert panel
A group of experts was determined based on their clinical
and scientific expertise in the field of GERD. Members
were to be independent from industry-driven methods,
representative of different subspecialties involved in
GERD, and be distributed throughout Europe. Accord-
ingly, the expert panel consisted one gastroenterologist
(ES), one pulmonologist (PK), nine surgeons (WB, BD,
AF, KHF, EF, FG, PH, RP, and GZ), and one pediatric
surgeon (MvH). The project was assisted in Frankfurt by a
surgical coworker (BB). The group was finalized in early
2012.
A basic list of important items with respect to GERD
was established by the members in Frankfurt and circulated
to the others, and a critical response and possible
corrections were requested. For the literature research we
followed the concept as published in other EAES consen-
sus projects [7, 8].
Initially, in 2012, the core group in Frankfurt (KHF,
WB, and BB) performed a systematic search for informa-
tion in Medline via PubMed and the Cochrane Library
using the following items or search terms: GERD epide-
miology, pathophysiology, natural course; hiatal hernia;
GERD symptoms; GERD indication for surgery, GERD
medical therapy, fundoplication; Redo fundoplication;
Barrett’s esophagus, duodenogastroesophageal reflux, and
GERD in children. A total of 18,490 leads were evaluated
and, of these, 4,900 abstracts were read and selected for
further analysis, following the hierarchy of research evi-
dence and clinical evidence. All articles were reviewed and
classified according to the hierarchy of level of evidence
[9].
In May 2012 a project plan, together with a literature list
and a preliminary list of GERD items, was distributed
among the panelists. All panelists were given tasks and
asked to focus on certain items according to their subspe-
cialty. They were asked to check the literature list for
completeness. A first-draft statement on the different items
was created in August 2012 after collecting all the infor-
mation from the panelists and circulated for evaluation and
changes before the first face-to-face meeting.
A revised draft was circulated and the first face-to-face
meeting was held in Frankfurt at the end of September
2012. On this occasion, an in-depth discussion on each
item began during the one-and-a-half-day meeting. The
selected literature underwent critical appraisal in regard to
consistency and valid clinical background. This informa-
tion and the results of these discussions were transformed
into statements, along with the level of available evidence
and comments for further explanation, as necessary. The
resulting document was circulated for further completion
of each item, including diagnostics, medical therapy, sur-
gical therapy, failures, and Barrett’s esophagus. During the
following months a second period of reassessment of the
chosen statements, literature review and incoming addi-
tional information was performed by email exchange.
A second face-to-face meeting was organized in January
2013 to reevaluate all items, statements, and their corre-
sponding evidence level as well as the possible consensus
among the panelists. Again, there was an in-depth discus-
sion on each item and the results were summarized in
statements and comments. Some items were dropped and
others were included in different sections.
The strength of an item’s recommendation was based on
the level of evidence and indicated by the word ‘‘must,’’
‘‘should,’’ or ‘‘can’’ according to the grade A, B, or C [7–
9]. The degree of consensus was expressed as the per-
centage of agreement for or against a certain item. If the
1754 Surg Endosc (2014) 28:1753–1773
123
result of discussion led to controversial standpoints, it was
clearly stated in the document. In the Results section, the
grade of recommendation was expressed as GoR, the
expert panel’s consensus as ExC, and the scientific com-
munity consensus as SCC, all three as percentage.
The results of the meeting were reformulated and
summarized in an updated version of the document which
was circulated for a final Delphi round prior to the EAES
meeting in Vienna.
During the final consensus conference at the plenary
session of the 22nd annual EAES congress in Vienna in
June 2013, the consensus statements were presented to the
scientific community for further discussion and input. To
have measurable and representative input from the scien-
tific community, a questionnaire presenting all items was
distributed to the audience for assessment and feedback.
The answer for each item was selected from ‘‘agree,’’
‘‘partially agree,’’ ‘‘indifferent,’’ ‘‘partially disagree,’’ and
‘‘completely disagree.’’ The questionnaires were collected
at the end of the session and evaluated. The results of the
community’s agreement or disagreement on the items are
documented in the Results section. A disagreement of more
than 5 % led to revision of the statement.
After consideration of the feedback of the audience and
further comments by the panel, an additional and final
Delphi process was initiated to achieve a final consensus,
which is presented here.
Results
Definition
In spite of some inconsistencies (defined later), for the
purpose of this consensus conference, we have adopted the
Montreal definition of gastroesophageal reflux disease
(GERD). GoR C; ExC 100 %; SCC 95 %
Endoscopic findings in GERD allow one to distinguish
between Nonerosive reflux disease (NERD), erosive reflux
disease (ERD), and Barrett’s esophagus (BE). In addition
to normal endoscopy, diagnosis of NERD requires a sat-
isfactory response to PPI therapy and/or an abnormal acid
exposure and/or a positive symptom association with
documented reflux episodes. GoR C; ExC 100 %; SCC
98 %
In Europe, the two most widely used endoscopic clas-
sifications of esophagitis in GERD are the Savary and
Miller classification and the Los Angeles Classification.
GoR C; ExC 100 %; 95 %
In the Montreal consensus meeting, the disease was
classified into esophageal and extraesophageal syndromes.
In addition, the group recognized laryngitis, cough, asthma,
and dental erosions as possible GERD syndromes [5]. After
in-depth discussion, the panel felt that this did not com-
pletely reflect the current clinical situation and differenti-
ated the symptomatic presentation of GERD in more detail
[4–6]. As endoscopic findings are assessed differently in
many European countries, the most widely accepted clas-
sifications should be used [10–13].
Pathophysiology
GERD is a multifactorial disorder, related mainly to failure
of the antireflux mechanisms. The pathophysiologic com-
ponents of GERD, which can be involved either alone or
combined, are a defective antireflux barrier (mechanically
defective LES, inappropriate transient LES relaxations,
hiatal hernia), delayed gastric emptying, and impaired
esophageal clearance. GoR C; ExC 100 %; SCC 100 %
GERD is a multifactorial process in which esophageal
and gastric changes are involved. The major pathophysio-
logic causes are the incompetence of the lower esophageal
sphincter (LES), transient sphincter relaxations, insufficient
esophageal peristalsis, altered esophageal mucosal resis-
tance, delayed gastric emptying, and antroduodenal
motility disorders with pathologic duodenogastroesopha-
geal reflux as well as altered hiatal and gastroesophageal
anatomy [14–19]. Changing and deteriorating hiatal anat-
omy involves the hiatal crura, the phrenoesophageal liga-
ment, and esophageal shortening [19–21]. Several factors
such as stress, obesity, pregnancy, and diet as well as drugs
play an aggravating role in this process [4–6].
Epidemiology
Epidemiologic data on GERD are not reliable. Based on
symptoms, the prevalence ranges between 0.1 and 20 % in
industrial countries. GoR D; ExC: 100 %; SCC 89 %
Data are based merely on subjective symptoms such as
heartburn and regurgitation [22, 23].
Natural course
GERD is a chronic disease. The majority of patients with
GERD will remain within the initial level of severity of the
disease. Only a proportion of patients will progress and
develop further complications. GoR B; ExC 100 %; SCC 98 %
The majority of patients with GERD will remain stable
over time and within the level of severity of the disease
[24, 25]. However, a small proportion (4-7 %) of patients
have progressive disease with usually deteriorating anat-
omy and function as well as increasing severity of symp-
toms and decreasing quality of life [19, 23, 25]. A few
patients with severe GERD can even develop detrimental
aspiration, most often associated with advanced age, other
comorbidities, and large hiatal hernias, which aggravate the
Surg Endosc (2014) 28:1753–1773 1755
123
exposure to reflux, accounting for some deaths related to
GERD [26].
Anatomy and hiatal hernias
In GERD, hiatal hernia is a very frequent finding, found in
up to 80-90 % of the surgical patient population. GoR B;
ExC 100 %; SCC 89 %
Hiatal hernia is defined as an anatomical abnormality
consisting of a protrusion or migration of intra-abdominal
contents through an enlarged hiatal opening at the dia-
phragm [14, 27, 29]. When this develops over time, a
hernia sac forms while the hiatal phrenoesophageal mem-
brane and mediastinal and abdominal connective tissue
deteriorate. Hiatal hernia is found in up to 80-90 % of
GERD patients [14, 20, 27–29].
Even though the size and shape of a hernia can very
markedly, the surgical principles of dissecting a hiatal
hernia are similar for small and large hernias. A surgically
relevant classification of hiatal hernia should be used,
because indications for certain surgical and endoscopic
techniques as well as patient information and informed
consent may depend on the presence of symptoms and
different types of hernias. GoR C; ExC 100 %; SCC 95 %
There are several classifications of hiatal hernia [14, 27–
30]. The most frequently used is a topographic description
[14, 27, 29]. Another very useful classification is an
endoscopically generated, which allows for a more func-
tional assessment [30]. In a sliding hiatal hernia, a cir-
cumferential insufficiency of the phrenoesophageal
ligament has caused a complete circular migration of the
gastroesophageal junction into the lower mediastinum,
which can grow into an intrathoracic stomach transloca-
tion. In a true paraesophageal hernia there is a local failure
of the phrenoesophageal ligament causing a paraesopha-
geal herniation of the fundus, while the gastroesophageal
junction remains at the hiatal level. In a partial or complete
upside-down stomach, the stomach has turned into the
hernia sac in the mediastinum and herniation of other
organs such as the colon can occur.
Since the surgical principles of dissecting and taking
down a hiatal hernia are similar independent of the hernia’s
size and rotational status, the classification of a hiatal
hernia is not of major importance with respect to its repair
by an experienced surgeon. However, a surgically relevant
classification may be useful when certain special surgical
and endoscopic techniques are indicated and for patient
information and obtaining informed consent, since size and
shape still can play a role in the pathophysiology and
symptomatic presence.
Surgical requirements are an adapted approximation of
the crura to narrow the hiatal orifice with nonresorbable
sutures and resection of the hernia sac with care being
taken to preserve the vagal nerves. GoR C; ExC 100 %;
SCC 98 %
Narrowing the hiatus by adapted crural closure with
nonresorbable sutures in addition to resection of the hernia
sac after extensive mobilization of the esophagus in the
mediastinum has been documented [14, 21, 31]. Relevant
surgical problems include careful preservation of the vagal
nerves, attention to anatomical variations at the hiatus, and
recurrence despite adequate surgical technique due to tis-
sue weakness and failure to establish stable adhesion after
surgery. Recently, new efforts to evaluate the hiatus more
precisely in order to classify the risk of failure and possibly
prevent this failure by the use of meshes have been
emphasized [32–35].
Clinical presentation of GERD: typical and atypical
symptoms
GERD can cause a variety of gastroesophageal (typically
heartburn and regurgitation) and extraesophageal symp-
toms. GoR B; ExC 100 %; SCC 100 %
Although heartburn and regurgitation are characteristic
of GERD, they overlap substantially with other disorders
such as dyspepsia or somatoform disorders. GoR C; ExC
100 %; SCC 100 %
Patients with GERD can also present with dysphagia,
upper gastrointestinal bleeding, chest pain, and epigastric
pain. These symptoms (‘‘red flag’’ symptoms) attest to
severe acute disease and should be clarified by immediate
appropriate diagnostic investigations. GoR C; ExC 100 %;
SCC 97 %
The multifactorial pathophysiologic background of
GERD accounts for the manifold clinical presentation [14,
17, 19, 27, 36–40]. In addition, symptoms suggestive of
GERD show a considerable overlap with other disorders
such as functional heartburn, esophageal hypersensitivity,
functional dyspepsia, irritable bowel syndrome, respiratory
disorders, eosinophilic esophagitis, and disorders of the
mouth and throat [41–47]. Thus, symptoms are not reliable
for confirming the diagnosis of GERD.
In the Montreal consensus meeting [5], clinical mani-
festations of GERD were differentiated in only two syn-
dromes, esophageal syndromes and extraesophageal
syndromes, subject to the criticism of the panelists. The
panelists found evidence to claim that there are esophageal,
gastrointestinal, and extraesophageal (respiratory and oro-
pharyngeal) symptoms associated with GERD [36–53].
Esophageal symptoms are heartburn, regurgitation, and
thoracic pain. Heartburn (also known as retrosternal burn-
ing and substernal burning) from the epigastrium upward is
the most typical and frequent symptom in GERD. Heart-
burn can be present in 6-20 % of dyspepsia patients [36–
38]. Regurgitation of refluxed gastroduodenal contents
1756 Surg Endosc (2014) 28:1753–1773
123
from the stomach into the hypopharynx and/or mouth is the
second most important symptom in GERD, with a preva-
lence of 33-86 % [36–38, 53].
Among the gastrointestinal symptoms, epigastric pain is
present in 70.5 % of patients with foregut symptoms and in
12-67 % of those with documented pathologic acid reflux.
The overlap with dyspepsia and somatoform disorders is
large [38, 41–47].
Dysphagia is also potentially related to GERD, indi-
cating an impaired passage throughout the esophagus. It
can also be a ‘‘red flag’’ symptom, potentially caused by a
tumor, requiring immediate evaluation [5].
Extraesophageal symptoms (EES) (e.g., cough, hoarse-
ness, globus, and shortness of breath) can be associated
with syndromes such as reflux cough syndrome, reflux
laryngitis syndrome, reflux asthma syndrome, and reflux
dental erosion syndrome. Further potential extraesopha-
geal manifestations include idiopathic pulmonary fibrosis,
pharyngitis, sinusitis, and otitis, which are currently under
scrutiny. GoR C; ExC 100 %; SCC 98 %
Extraesophageal symptoms (EES) include respiratory
and oropharyngeal symptoms such as chronic cough,
hoarseness, sore throat, and pharyngeal burning. In addi-
tion, a burning sensation of the tongue and mouth, a globus
sensation, and dental erosions can be related to GERD [5].
The term extraesophageal reflux (EER) is used for respi-
ratory-related symptoms. Although there is no consensus
definition of EER, common sense leads to define EER as
related to lesions and/or symptoms caused by gastro-
esophageal reflux that reaches structures above the upper
esophageal sphincter [5].
The Montreal consensus proposed several syndromes
and association of syndromes in GERD [4]. The level of
evidence, particularly for the latter, is low. Established
associations are reflux-cough syndrome [54–56], reflux-
laryngitis syndrome [57, 58], reflux-asthma syndrome [59,
60], and reflux-dental erosion syndrome [61], while the
proposed associations include pharyngitis [62, 63],
sinusitis [62], idiopathic pulmonary fibrosis [64, 65], and
otitis [62].
Today EER can be regarded as an important contrib-
uting factor to EES [66]. Of note, by far not all patients
with reflux suffer from such syndromes. For example, in
reflux-chronic cough syndrome, hypersensitivity of the
anatomically closely related cough reflex circuit to the
LES innervation may play a crucial role [67]. This
changing paradigm of understanding reflux-respiratory
disease correlations makes it very difficult to collect
epidemiologic data [67, 68]. Sampling gaseous, aerosol-
ized reflux in the pharynx might be more appropriate for
the assessment of laryngopharyngeal reflux (LPR), further
complicating sampling of epidemiologic data on EER
[68–70].
Diagnostic investigations
The most important diagnostic investigations to prove the
presence of GERD are endoscopy and long-term imped-
ance pH monitoring (or pH monitoring). For accurate
placement of the impedance pH probe, manometry mea-
surements are recommended. The test should be performed
after adequate washout of PPI or antisecretory drugs
(discontinuation 2 weeks before testing). GoR B; ExC
100 %; SCC 97 %
It is essential to differentiate between the investigations
necessary to establish the diagnosis of GERD and those
necessary to establish the indication for surgery or any
other invasive therapy [5, 11, 17, 37, 71, 72]. Upper gas-
trointestinal endoscopy is an important investigative tool to
document GERD when there is endoscopic visualization of
mucosal damage such as signs of reflux esophagitis [11, 73,
74]. The other important diagnostic investigative tool is pH
monitoring or impedance pH monitoring, which is neces-
sary to objectively document pathologic acid exposure and/
or other pathologic reflux activities [75–79]. Impedance pH
monitoring increases the diagnostic value of these func-
tional studies by quantifying acid and nonacid reflux [80]
and by providing a correlation between symptoms and
documented reflux episodes [81–84]. In addition, esopha-
geal pH monitoring has important prognostic value in
patient selection for antireflux surgery [85].
Esophageal manometry is not important in establishing
the diagnosis of GERD. It does, however, have some value
as a marker of severity of the disease in that LES incom-
petence is associated with more severe disease and long-
term progression [15–17, 19, 86]. Manometry studies are
important prior to any surgical procedure to evaluate
motility disorders, especially spastic motility disorders or
achalasia [31, 71, 72, 83, 86–90].
When atypical symptoms are predominant, a symptom
correlation with proven reflux episodes should be consid-
ered for accurate diagnosis. GoR B; ExC 100 %; SCC
92 %
The more atypical symptoms present in a given patient,
the more detailed diagnostic assessment should be per-
formed prior to surgery to detect all functional defects [72,
90]. When extraesophageal symptoms are present or,
especially, are the chief complaints, it is extremely
important to correlate the atypical symptoms with the
reflux episodes to justify invasive antireflux therapies [91].
Further diagnostic investigations may be needed to
verify functional abnormalities and establish the indication
for surgery or other invasive therapies. Investigations that
can evaluate the status of esophageal and gastric function
include high-resolution manometry (HRM), video-radiog-
raphy, scintigraphy, and others. GoR B; ExC 100 %; SCC
93 %
Surg Endosc (2014) 28:1753–1773 1757
123
HRM facilitates the procedure for the patients. Dynamic
barium sandwich videography is important in evaluating
patients with dysphagia. In cases of large hernias, a barium
study can provide information about the possibility of a
short esophagus [21]. In GERD patients with nausea and
vomiting as the major complaint, gastric emptying studies
and duodenogastroesophageal reflux assessment should be
done to evaluate the presence of a gastroduodenal motility
disorder such as delayed gastric emptying [92–95].
Medical therapy
The goal of medical therapy in GERD is to control
heartburn, heal gastroesophageal mucosal injuries, and
improve quality of life. GoR A; ExC 100 %; SCC 100 %
GERD, both ERD and NERD, is associated with sig-
nificant impairment of quality of life [3, 4, 96–101]. Thus,
the goal of medical therapy in GERD is to control heart-
burn, heal gastroesophageal mucosal injuries, and improve
quality of life [96–98].
Lifestyle and dietary modifications may benefit some
selected patients with GERD, but alone they are almost
ineffective in relieving reflux symptoms. GoR B; ExC
100 %, SCC 97 %
Patients should avoid large meals and lying down within
3 h after eating. Moreover, ingestion of fatty or spicy
foods, chocolate, coffee, peppermint, citrus fruits and jui-
ces, tomato, carbonated drinks, and alcohol may favor the
occurrence of reflux events and GERD symptoms [3–5,
102, 103]. Changes in lifestyle may include sleeping with
the head elevated and stopping smoking [103, 104]; how-
ever, there is little or no evidence for the efficacy of these
interventions. Conversely, recent data suggest that a high
BMI is an independent risk factor for the development of
GERD and that the clinical efficacy of medical therapy
seems to be influenced by the patient being overweight/
obese. Weight loss or avoidance of weight gain should be
considered to reduce the risk of GERD and to obtain a
better outcome from acid suppressant therapy [104–106].
Antacids are well tolerated, safe, and effective in
reducing heartburn and controlling acid regurgitation
(typical symptoms of GERD) in patients with mild reflux
disease. GoR B; ExC 100 %; SCC 96 %
Antacids such as alginate-based preparations are well
tolerated and effective in reducing heartburn and improv-
ing quality of life [107–110]. However, they are less
effective in controlling nonacid reflux and regurgitation
[111].
Acid suppressive drugs are safe and effective in patients
with esophageal syndromes. Proton pump inhibitors (PPIs)
are more powerful than H2 receptor antagonists in pro-
viding mucosal healing and symptomatic relief. GoR A;
ExC 100 %; SCC 100 %
H2receptor antagonists (H2RAs) Acid suppression rep-
resents the mainstay of GERD medical treatment. H2RAs
have shown lower efficacy than PPIs in acid suppression,
but given in divided doses they may be effective in some
patients with less severe forms of GERD [112, 113].
Moreover, as gastric acid is still secreted particularly dur-
ing the night, despite twice-daily PPIs, it has been sug-
gested that the addition of a nighttime H2RA might be
helpful in suppressing this acid reflux, but insufficient data
are available to recommend it [114]. However, it is
important to note that continuous use of H2RAs is associ-
ated with the development of tolerance to them, limiting
their long-term use and efficacy as add-on therapy [115].
Proton pump inhibitors (PPIs) By inhibiting the H?-
K ? adenosine triphosphatase pump of the parietal cell,
PPIs potently reduce gastric acid secretion and provide the
most powerful symptomatic relief and heal esophagitis in
the majority of the patients [3–5, 116, 117]. Moreover, they
are safe and have been used world-wide for more than a
decade [116, 118, 119]. Standard doses of omeprazole,
lansoprazole, pantoprazole, esomeprazole, and rabeprazole
for the most part have shown comparable rates of healing
and remission of erosive esophagitis [119, 120], although
there are several physiologic studies showing a mild to
moderate benefit of one drug over another [121, 122].
Since PPIs are best absorbed in the absence of food,
patients should be advised to take their PPI between 30 and
60 min prior to eating, usually before breakfast or prior to
the evening meal [123].
In patients with a partial or unsatisfactory response to
once-daily PPI dose, twice-daily PPI may be of help to
improve symptom relief. Nonresponders should be further
investigated. GoR B; ExC 100 %; SCC 98 %
Data supporting twice-daily PPIs (or H2RAs) rather than
a standard dose for improving mucosal healing and
symptom relief are weak [124, 125], even though the
pharmacodynamics of the drugs logically supports twice-
daily dosing [119, 126]. Expert opinion suggests twice-
daily dosing of PPIs in patients with an esophageal syn-
drome and unsatisfactory response to once-daily dosing or
in patients with ‘‘atypical’’ or ‘‘extraesophageal symp-
toms’’ [119, 127, 128]. Nonresponders to twice-daily PPI
therapy should be considered treatment failures and further
investigated [129, 130].
Promotility drugs as monotherapy or add-on therapy
are not recommended for the routine management of
GERD. Prokinetics may be used in selected patients in
conjunction with antisecretory agents. GoR C; ExC 100 %;
SCC 93 %
Esophageal and gastric motility abnormalities are rele-
vant in the pathogenesis of GERD. Therefore, promotility
drugs such as metoclopramide, bethanecol, and domperi-
done, given as mono- or add-on therapy, usually before a
1758 Surg Endosc (2014) 28:1753–1773
123
meal, may be useful to control reflux symptoms. However,
the frequent side effects have largely limited the regular
use of these drugs [131, 132].
Indication for surgical therapy in GERD
Prior to the indication for surgery or any other invasive
therapy, it must be proven that patients are in need of long-
term treatment of GERD. GoR B; ExC 100 %; SCC 98 %
Patients with continuous reduced quality of life, per-
sistent troublesome symptoms, and/or progression of dis-
ease despite adequate PPI therapy in dosage and intake
should be offered laparoscopic antireflux surgery after
proper diagnostic testing. GoR A; ExC 100 %; SCC 98 %
The aim of therapy is to resolve the symptoms, treat and
prevent complications, and improve the patient’s quality of life.
If symptoms and a reduced quality of life persist despite an
adequate PPI dosage and proper intake, patients should undergo
further testing to evaluate the severity and complexity of the
disease and possible indication for antireflux surgery. The basis
for this is the available evidence that laparoscopic antireflux
surgery can improve quality of life in patients with altered
anatomy, massive acid exposure, nonacid reflux, severe
reduction in quality of life, and progressive disease with need to
increase PPI dosage over the years [31, 71, 72].
PPI therapy is always the primary therapy for acute
GERD. If a patient needs long-term treatment, both med-
ical and more invasive options must be considered. Several
randomized trials comparing PPI therapy with antireflux
surgery have been conducted. Three of these trials [133–
135] showed an advantage for surgical therapy in outcome
and cost-effectiveness after a few years, whereas one
showed an advantage for PPI therapy after 5 years [117].
The conclusion from these studies and other large case-
control series from experienced centers is that patients
should be well selected for surgery so that they benefit
from an increase in quality of life [117, 133–138].
The following list of criteria drawn from the literature
contains the most important and most frequently mentioned
features leading to the indication for antireflux surgery:
• Typical symptoms for GERD [85]
• Documented symptom-reflux correlation [83]
• Year-long reflux history [14, 16, 86]
• Reduced quality of life [31, 71, 72]
• Positive PPI response [85]
• Need for PPI dosage increase [25, 117, 133, 134]
• Hiatal hernia [14, 19, 20]
• Documented esophagitis (in the past before PPI) [14,
19, 134–136]
• Proven LES incompetence [14–17, 19, 86]
• Documented acid reflux [14, 17, 19, 71, 72, 77, 92]
GoR B; ExC 100 %; SCC 95 %
These criteria should be evaluated in each patient who is a
candidate for antireflux surgery to verify as much as pos-
sible the need for long-term therapy and surgical correction
[14–17, 19, 20, 25, 31, 37, 71, 72, 77, 83, 85–87, 92–94,
117, 133–135].
Patients with proven GERD, good response to PPI,
dependent on PPI, and acceptable quality of life under
adequate PPI therapy may be considered for surgery if she/
he so desires. Information about the side effects and risks
of antireflux surgery is particularly relevant in this cate-
gory of patient. GoR C; ExC 100 %; SCC 91 %
Patient with documented GERD and sufficient quality of
life under adequate PPI therapy can continue medical
treatment. However, some patients may want surgical
therapy. The indication for surgery—the patient’s wish—is
a critical issue since 5-10 % of these patients run the risk of
reduced quality of life postoperatively [31, 71, 72, 117].
This risk should be part of the information presented to the
patient before he/she gives informed consent.
In patients with proven GERD and impaired esophageal
motility, a fundoplication (partial or total) can be per-
formed without an increased risk of dysphagia. In cases of
severe hypomotility, the data are controversial, but a
partial fundoplication might be considered. GoR C; ExC
100 %; SCC 91 %
The influence of esophageal motility disorders on post-
operative results was investigated in several randomized
trials [139–141]. Keeping the different definitions of
esophageal motility disorders in mind, laparoscopic fun-
doplication can be either partial or total. However, for
patients with aperistalsis, the results in the literature are
controversial [139–145].
In NERD patients and those with hypersensitive esoph-
agus, antireflux procedures can improve quality of life if
adequate indication criteria are fulfilled. GoR C; ExC
100 %; SCC 95 %
Limited evidence from preliminary data has shown good
results from laparoscopic Nissen fundoplication in patients
with NERD and in patients with normal acid exposure and
positive symptom association with acid and/or nonacid
reflux episodes (hypersensitive esophagus), if the patients
are selected very carefully [146, 147].
Patients with documented pathologic laryngopharyn-
geal reflux (LPR) and positive symptom correlation may
benefit from a laparoscopic fundoplication. There is only
limited evidence on the efficacy of antireflux surgery in
patients with documented LPR associated with nonacid
reflux. GoR C; ExC 100 %; SCC 93 %
Several case-control studies have shown good results for
laparoscopic Nissen fundoplication in carefully selected
Surg Endosc (2014) 28:1753–1773 1759
123
patients with LPR or GERD-related respiratory symptoms
[67, 148–153].
Patients with GERD and who are obese can benefit from
a bariatric procedure rather than from an antireflux pro-
cedure. Indications according to BMI and the best proce-
dure to use (gastric bypass, sleeve, others) are currently
being debated. GoR C; ExC 87 %; SCC 89 %
In obese patients with BMI[35 kg/m2 and GERD, a tra-
ditional antireflux operation may not be sufficient. In moder-
ate cases, a combination of sleeve gastrectomy with sphincter
and hiatal repair can be considered. In more severe cases, both
problems can be solved by bariatric surgery [154, 155].
Standard technique of primary laparoscopic
fundoplication
The rationale for surgery is to create a functional antire-
flux barrier. The reconstruction of the antireflux barrier
consists of three fundamental components: (1) proper
length of the intra-abdominal esophagus, (2) crural repair,
and (3) fundoplication. GoR B; ExC 100 %; SCC 98 %
The operative strategy of mechanical augmentation of
the cardia, as introduced by Nissen [156], is still valid and
successful [31, 71, 72, 117, 133–135, 157]. Several modi-
fications to fundoplication (complete, posterior, or anterior
partial wraps) have been shown in randomized trials to
efficiently reduce gastroesophageal reflux and improve
quality of life over years [31, 71, 72, 117, 133–135, 157–
160]. Both partial and total fundoplications must meet the
basic standard of being efficient and providing longevity by
restoring the intra-abdominal segment of the esophagus,
using only the fundus to create the wrap, placing the valve
at the level of the gastroesophageal junction, and ade-
quately approximating the crura [157].
Laparoscopic partial and total fundoplications are
currently the best available surgical techniques to treat
severe GERD. GoR A; ExC 100 %; SCC 99 %
Randomized controlled trials (RCTs) have shown that
partial fundoplication has fewer short-term side effects.
However, the available RCTs are of limited quality and
power. Due to the heterogeneity with respect to the defi-
nition of dysphagia and outcomes and/or different poorly
defined technical details of the procedures, results are
difficult to compare. As a consequence, experienced sur-
geons in high-volume centers may decide between total and
partial posterior fundoplication according to their own
experience and outcome. GoR B; ExC 100 %; SCC 97 %
Controversy exists about the optimal shape of the wrap,
whether to use complete (360�) or partial, anterior or
posterior, and whether the latter should cover 240�, 180�,
or 90� of the esophageal circumference. Several random-
ized trials [159–174] and meta-analyses have been pub-
lished [175–182].
The two major competing procedures are the laparo-
scopic Nissen fundoplication and the posterior partial
Toupet hemifundoplication. Meta-analyses show a similar
success rate at 5 years but a higher rate of side effects
(dysphagia, bloating, and flatulence) and a higher reoper-
ation rate in the Nissen group compared to the Toupet
group [160, 162, 170, 176, 179]. In contrast, large case-
control studies from experienced centers show a low level
of side effects with minimal enduring dysphagia, a high
long-term durability, and a low reoperative rate for the
Nissen procedure [31, 71, 72, 157, 183–189]. Since the
data are controversial, consensus is difficult and the choice
of which fundoplication technique to use should be left to
the individual surgeon according to his/her expertise.
Hiatal repair (approximation) is obligatory in the sur-
gical treatment of hiatal hernia. GoR B; ExC 100 %; SCC
100 %
There is only indirect evidence indicating that hiatal
repair should be performed during antireflux surgery [1, 2,
117, 128]. In addition, whether a radiologic hiatal hernia
recurrence is clinically relevant and requires therapeutic
measures is controversial [190].
Hiatal repair with mesh reinforcement may reduce
hernia recurrence. However, mesh-related complications
have to be considered. GoR A; ExC 100 %; SCC 98 %
Frequent recurrences, especially in patients with a large
hiatal hernia, have stimulated interest in mesh reinforce-
ment as a possible solution [191–198]. Two randomized
trials and other reports have shown an advantage in the use
of mesh reinforcement regarding the postoperative recur-
rence rate of hiatal hernias.
There is increasing evidence of mesh-related compli-
cations. As a consequence, indications for mesh should be
limited to patients with weak crurae and a large hiatal
defect. GoR C; ExC 100 %; SCC 95 %
More recently, clinical experience has shown that the
use of mesh at the hiatus can cause severe problems (e.g.,
recurrent dysphagia and pain, mesh dislocation and pene-
tration) sometimes requiring major resections [197–201].
Collis gastroplasty in the short esophagus
A short esophagus (SE) is a rather rare phenomenon with
reports showing it ranging from 1 to 20 %. Although the
final diagnosis of SE is made intraoperatively, the presence
of peptic strictures, Barrett’s esophagus, and large hiatal
hernia are considered preoperative indicators of SE. When
there is a suspicion of SE, the patient should be investi-
gated with barium studies. GoR C; ExC 100 %; SCC 95 %
In an anatomically normal adult, the intra-abdominal
segment of the esophagus is 2–3 cm long, depending on the
body’s length. In a patient with long-standing GERD and
persistent or recurrent esophagitis, the esophagus can be
1760 Surg Endosc (2014) 28:1753–1773
123
shortened [21]. If the esophagus cannot be mobilized from
the mediastinum in a tension-free fashion to obtain a 2-3-
cm intra-abdominal segment during an antireflux proce-
dure, it is classified as a ‘‘short esophagus.’’ While most
authors consider this a rare phenomenon, the incidence
reported in literature is controversial, ranging between 1
and 20 % [21, 202–206].
If sufficient length of the intra-abdominal esophagus
cannot be obtained after extensive esophageal mobiliza-
tion, a lengthening procedure using Collis gastroplasty
should be considered, since patients can benefit from it.
There is limited evidence on the technical aspects of a
Collis gastroplasty. A Collis gastroplasty should be per-
formed by an experienced surgeon in this field. GoR B;
ExC 86 %, SCC 78 %
Two meta-analyses and several case-controlled studies
have shown that patients with SE can benefit from antire-
flux surgery combined with a Collis gastroplasty [22, 202–
207]. An alternative to gastroplasty can be esophageal
lengthening by dividing the posterior and, if necessary,
anterior vagal nerves [208].
New emerging techniques for antireflux therapy
There is not enough evidence available to recommend an
alternative option to fundoplication for severe GERD. GoR
B; ExC 100 %; SCC 97 %
Several endoscopic antireflux techniques have been
developed beginning in the late 1990 s. Due to limited
effectiveness and/or severe complications, most of these
procedures, such as EndocinchTM suturing (C.R. Bard, Inc.,
Murray Hill, NJ), the Stretta� procedure (Mederi Thera-
peutics Inc., Norwalk, CT), the Enteryx� injection (Boston
Scientific, Natick, MA), the plicator, and the EsophyxTM
plication (EndoGastric Solutions, San Mateo, CA), have
not survived. Some procedures have had limited success
[209–213]. A new laparoscopic antireflux procedure using
a device to reinforce the cardia has been introduced in
recent years, the magnetic scarf LINXTM (Torax� Medical
Inc., Shoreview, MN). The initial clinical experience has
produced promising results in patients with moderate
GERD with or without small hiatal hernias [214, 215].
Failures of surgical therapy and management of redo
surgery
Failure is usually defined as persistent, recurrent, or new-
onset symptoms. Antireflux surgery has a failure rate of
10-15 %. The main symptoms of failure are recurrent
reflux symptoms and/or dysphagia. GoR A; ExC 100 %;
SCC 100 %
Persistent and recurrent reflux can be due to intratho-
racic wrap migration, disruption of the wrap, slipping,
and/or telescoping. Pain and/or dysphagia can be caused by
intrathoracic wrap migration, slipping, telescoping, para-
esophageal herniation, mesh migration, excessive fibrosis
(mesh-related or not), and/or an overly tight wrap or overly
tight crural repair. Dysphagia can also be due to initially
unrecognized esophageal motility disorders such as acha-
lasia. A variety of symptoms (gas-bloat syndrome, inability
to belch, gastric fullness, early satiety, diarrhea, nausea, and
vomiting) can occur postoperatively, some due to an overly
tight wrap or an overly tight crural repair, others secondary
to vagal damage. GoR B; ExC 100 %; SCC 98 %
Primary antireflux surgery has a successful outcome in
85-90 % of patients up to 5 years after surgery [31, 71, 72,
117, 133–135, 157, 183–188]. Consequently, that means
there is a failure rate of 10-15 %. Redo antireflux surgery is
required in 3-6 % of all patients who undergo primary
antireflux surgery [216–220]. Recurrent reflux symptoms
such as heartburn and regurgitation are the main com-
plaints after unsuccessful antireflux surgery and are found
in 61 % of patients with failure [219, 220]. Troublesome
dysphagia is the second most frequent symptom in failed
antireflux surgery (24 %). Combined recurrent reflux and
dysphagia is reported in 6 % of patients. Symptoms should
be the primary indication for redo antireflux surgery.
All patients seeking treatment for symptomatic failure
after antireflux surgery should be evaluated to identify the
causes of failure. Investigative techniques include endos-
copy, manometry (HRM), esophageal 24-h (impedance) pH
monitoring, barium studies, and scintigraphy. Severe dys-
phagia requires early endoscopic exploration and, when-
ever appropriate, endoscopic dilatation. If symptoms
persist, revisional surgery is recommended. Excessive
dysphagia and intractable pain and/or dyspnea in the early
postoperative course require immediate revision after
appropriate investigations. In all other failure scenarios,
first-line therapy should be medical and/or supportive.
GoR B; ExC 100 %; SCC 98 %
The main reason for functional failure after primary
antireflux surgery is misdiagnosis. These patients usually
have a primary functional disorder other than GERD such
as achalasia, diffuse esophageal spasm, nutcracker esoph-
agus, eosinophilic esophagitis, or scleroderma [219–221].
Another possible cause for failure after primary antireflux
surgery is the wrong procedure was used in patients with
severe esophageal dys- or motility [219].
All patients with symptomatic failure after primary an-
tireflux surgery should be extensively evaluated with sev-
eral procedures to identify the cause of the failure [219–
227]. This diagnostic program should include manometry,
possibly a high-resolution manometry, (impedance) pH
monitoring, radiographic studies such as a barium sand-
wich, and scintigraphy in selected cases, as well as
assessment of outcome and quality of life [216, 229–233].
Surg Endosc (2014) 28:1753–1773 1761
123
Redo antireflux surgery should always begin with a
clear definition of the anatomy. Surgeons undertaking re-
visional laparoscopic surgery should be able to perform
total and partial fundoplication, Collis gastroplasty, and
resections as necessary. Revisional antireflux surgery
should be performed by a well-experienced surgeon in the
field. GoR C; ExC 100 %; SCC 86 %
Anatomical alterations such as recurrent hernia or a
bilobed and twisted stomach have been described as rea-
sons for failure and subsequent redo antireflux surgery
[216–229]. However, an anatomical disturbance without
symptoms should never be the only reason for redo sur-
gery. Symptoms should be the primary indication for redo
antireflux surgery. Conversely, postoperative anatomy as
evaluated by endoscopy and/or barium studies can be
normal in patients who still have symptoms.
Anatomical changes after laparoscopic antireflux pro-
cedures can be classified into several categories, including
intrathoracic wrap migration, wrap disruption, telescoping,
paraesophageal herniation, a tight wrap or a tight crural
repair, and a bilobed or twisted stomach. With all of these
conditions there has to be dissection and proper rear-
rangement before creating a new fundoplication [216, 219,
220].
Revisional surgery should be performed by specialized
gastrointestinal surgeons with extensive experience in the
field. The surgeon’s technical armamentarium for revi-
sional surgery should include all laparoscopic, endoscopic,
and thoracoscopic procedures as well as all open proce-
dures, including major resections, as necessary to solve the
problem.
Barrett’s esophagus
Barrett’s esophagus (BE) is defined as ‘‘the presence of
columnar mucosa and intestinal metaplasia in the distal
esophagus’’ and is the final consequence of long-standing
(duodeno-) gastroesophageal reflux disease (GERD). BE is
associated with a 30-150-fold increase in the risk of
esophageal adenocarcinoma. GoR B; ExC 100 %; SCC
97 %
There are two definitions of BE currently in use. One,
adopted in the US and continental Europe, requires the
presence of intestinal metaplasia (goblet cells) in biopsies
from the columnar epithelium lining the distal esophagus
[234]. In the UK, on the other hand, all histological types
of metaplastic epithelium (cardiac or fundic) are defined as
columnar epithelium lining the esophagus (i.e., Barrett’s
esophagus) and the presence of intestinal metaplasia is not
essential to the diagnosis [235]. Since intestinal metaplasia
is the only type of esophageal columnar epithelium clearly
predisposed to malignancy [236], we prefer to use the first
definition. The incidence of BE progression to high-grade
noninvasive neoplasia or invasive neoplasia is estimated to
be between 1 and 5 per 1,000 patients/year, which is 40-50
times higher than in the normal population [237, 238].
The aims of medical or surgical therapy in Barrett’s
esophagus are to control symptoms, heal any mucosal
lesions (esophagitis), prevent complications, and limit
progression of BE to neoplasia. Although medical therapy
is highly effective in controlling symptoms, it may be less
so in abolishing gastroesophageal reflux and the progres-
sion to neoplasia. GoR B; ExC 100 %; SCC 98 %
The current treatment for BE [proton pump inhibitors
(PPIs) or antireflux surgery] aims to control GERD-related
symptoms and to prevent complications such as ulcer,
bleeding, and stricture. There have been anecdotal reports
of acid suppression therapy being able to revert intestinal
metaplasia to cardiac/fundic metaplasia or squamous epi-
thelium (and thereby reduce the cancer risk) [239].
The usual therapy for BE consists of PPI in single or
double doses. It is generally believed that BE patients are
more difficult to manage with medical therapies than other
GERD patients, and higher PPI doses may be required.
Abnormal acid exposure in the distal esophagus of BE
patients is particularly evident at night when nocturnal
regurgitation and related respiratory symptoms (nocturnal
acid breakthrough) may occur [240].
Antireflux surgery may be more effective than medical
therapy for BE and should be considered, particularly for
young patients. GoR C; ExC 100 %; SCC 89 %
Antireflux surgery is a valid alternative to PPI and has
the advantage of correcting the LES failure and the fre-
quently associated hiatal hernia, as well as controlling
abnormal gastric and duodenal reflux in 80-90 % of
patients. One controlled study [241] and several noncon-
trolled studies [242–246] have demonstrated better symp-
tom control and a lower incidence of stricture after surgery
compared to medical therapy. Subgroup analysis of
patients with BE enrolled in the recently reported LOTUS
trial showed a comparable rate of symptom control
between surgery and escalating doses of PPI [247]. Since
BE is frequently found in older patients, surgery should be
considered for younger and fit patients, particularly in cases
at high risk of progression with large hiatal hernias, severe
reflux symptoms, and a long history of disease [248, 249].
There is limited evidence to show that antireflux surgery
can reduce the extent of BE and the risk of progression to
cancer. After antireflux surgery, endoscopic surveillance
has to be maintained. GoR C; ExC 100 %; SCC 98 %
There are conflicting data regarding the influence of
surgical therapy on the regression or progression of BE
[243, 245, 250–257]. Epidemiological studies have
recently shown that progression to cancer after antireflux
surgery is due mainly to subsequent recurrence of reflux,
which remains the Achilles heel of antireflux surgery [259].
1762 Surg Endosc (2014) 28:1753–1773
123
Given such conflicting data, endoscopic surveillance
should be maintained even after a patient has undergone
antireflux surgery [258, 259].
Gastroesophageal reflux and antireflux surgery
in children
Although most children with gastroesophageal reflux
(GER) no longer have this condition by the age of 1 year,
clinically troublesome GERD can occur in a significant
proportion of children and adolescents. Contrary to adults,
GERD symptoms are often nonspecific. The majority of
pediatric GERD patients have neurological impairment.
GoR C; ExC 100 %; SCC 100 %
Gastroesophageal reflux (GER) is a normal physiologic
process and can occur in up to 70 % of completely healthy
newborns and infants. This GER resolves spontaneously in
95 % of the individuals by 12–14 months of age [260,
261]. When GER causes troublesome symptoms and/or
complications, the diagnoses of GERD can be raised,
according to the Montreal Definition of GERD in adults.
This definition also applies to children but with several
limitations [5].
Symptoms
Clinical diagnosis cannot be used in infants, young chil-
dren, or neurologically impaired adolescents because these
individuals cannot reliably report their symptoms.
Although the verbal child can communicate pain,
descriptions of the intensity, location, and severity may be
unreliable until the age of at least 8 years, and sometimes
even later [262–264].
In infants and younger children or older children with
neurologic impairment, symptoms and signs associated
with reflux are often nonspecific and include vomiting,
excessive regurgitation, refusing to eat, anorexia, unex-
plained crying, choking, gagging, coughing, disturbed
sleep, and abdominal pain [265].
Typical symptoms of GERD in children include recur-
rent regurgitation with or without vomiting, swallowing
difficulties that lead to weight loss or failure to thrive,
respiratory problems (wheezing, asthma, or recurrent
pneumonia), abdominal pain, irritability, and sleeping
problems. Anorexia or refusing to eat is significantly
(p \ 0.05) more common and severe in children aged
1–5 years than in older children or adolescents [266].
Sandifer’s syndrome (torticollis) is a specific manifestation
of GERD in neurologically intact children and entails
abnormal posturing (e.g., head tilt, torticollis), because of
GERD [267, 268]. When assessing GERD, rumination
should be distinguished from regurgitation. Rumination is
common in infants and children with neurological
impairment, but it can also occur in subjects without
obvious neurologic deficits and is considered by some to lie
within the spectrum of eating disorders [269]. Older chil-
dren are more likely to experience symptoms similar to
those in adults such as chronic heartburn, regurgitation
with reswallowing, and dysphagia.
Pathophysiology
GERD pathophysiology in children differs from that in
adults in that nearly 50 % of pediatric GERD patients are
neurologically impaired. In these patients prolonged supine
position, spasticity, and generalized gastrointestinal
dysmotility contribute to GER [270]. The higher frequency
of GERD in infants is associated with transient esophag-
ogastric immaturity [271]. Although the pathophysiology
of GERD has still not been completely unraveled, it is
known to be a multifactorial disorder, even in childhood
[271, 272].
Eosinophilic esophagitis (EE) is a chronic disease
characterized by eosinophilic infiltration of the esophageal
mucosa and associated with clinical and endoscopic man-
ifestations [273, 274]. The incidence of EE appears to be
increasing for as yet unknown reasons. EE can occur at any
age, with a clinical presentation ranging from gastrointes-
tinal symptoms (vomiting, feeding difficulties, dysphagia,
or food bolus impaction) to coexisting atopic conditions
(asthma, allergic rhinitis, or eczema).
Certain underlying disorders such as neurologic impair-
ment, esophageal atresia, chronic lung disease, and genetic
disorders predispose pediatric patients to the most severe and
chronic GERD, and its complications [275–277].
Normal values for most gastroesophageal functional
tests are lacking, which limits diagnostic accuracy. Diag-
nosis is established by evaluation and interpretation of
symptoms and results of diagnostic assessment. GoR C;
ExC 100 %; SCC 98 %
Established tests for assessing symptoms of GERD in
adults may be used in children. However, there are several
differences and limitations. For symptom evaluation, the
reliability and validity of two age-specific reflux ques-
tionnaires have been described to diagnose GERD, the
infant gastroesophageal reflux questionnaire (I-GERQ) and
the GERD symptom questionnaire (GSQ) [278–280].
Normal values for children over 18 months of age using pH
monitoring have not been established. Reflux assessment
should be performed by 24-h impedance pH monitoring
[280–282].
Barium swallow X-ray is useful to detect anatomic
abnormalities but not for the diagnosis of GERD, since
sensitivity and specificity are limited [282, 283]. Gastric
emptying is measured by the 13C-octanoic acid breath test,
for which normal values in children have been established
Surg Endosc (2014) 28:1753–1773 1763
123
[283]. Esophagogastroscopy with esophageal biopsy
should be performed to diagnose or rule out other condi-
tions, including eosinophilic esophagitis, infection, and
Crohn’s disease.
The therapeutic approach should start with medical
therapy. The efficacy of pediatric antireflux surgery (ARS)
has a wide range, which explains why the best approach is
still under debate. Although there is a lack of well-designed
studies, partial fundoplication shows less severe postop-
erative dysphagia while maintaining similar reflux control
compared to complete fundoplication. GoR B; ExC 100 %;
SCC 100 %
Most symptomatic children respond well to medical
treatment. Either H2 antagonists or PPI may be used in chil-
dren over 1 year of age [284–286]. However, when medical
treatment fails, ARS may be considered [285–287]. ARS is
one of the most frequently performed major operations in
children. A systematic review of prospective studies on
pediatric ARS showed a good overall success rate (median
86 %) in terms of complete relief of symptoms [288].
A systematic review and meta-analysis comparing the
laparoscopic versus open approach in children showed a
shorter hospital stay, less morbidity, and earlier feeding
time after laparoscopic ARS. Recurrence of reflux after
either procedure was similar [289].
Several different types of fundoplication (Nissen, Tou-
pet, and Thal) can be performed in pediatric patients with
GERD. The results of several studies are controversial as
some reports show a higher risk of postoperative dysphagia
with the Nissen procedure compared to partial fundopli-
cation [290–292]. Recently, a first randomized trial with
pediatric GERD patients was performed comparing Nissen
to Thal fundoplication [292]. A meta-analysis showed that
reflux control was similar after both types of fundoplica-
tion. However, partial fundoplication required significantly
fewer dilatations to treat postoperative dysphagia [292]. In
summary, ARS in pediatric patients with GERD shows
good reflux control.
Enteroesophageal and duodenogastroesophageal reflux
Duodenogastroesophageal reflux is associated with more
severe esophageal mucosal damage and BE. Fundoplica-
tion can prevent both gastric and duodenal reflux and is
indicated in BE with documented enteroesophageal reflux.
GoR B; ExC 100 %; SCC 96 %
The damaging effect of combined acid and duodenal
juice and its components has been proven and documented
in several conditions such as GERD, BE, and postoperative
syndromes [14, 17–19, 93, 94, 293, 294]. Fundoplication
can reduce gastroesophageal reflux very effectively and is
therefore indicated in patients with severe mixed patho-
logic reflux.
Refluxate from the small bowel into the esophagus in
patients with previous gastric surgery can cause severe
damage in the esophagus. As a consequence, symptomatic
patients after gastric surgery with reduced quality of life
and enteroesophageal reflux should undergo functional
diagnostic workup. If indicated by a positive correlation
between functional defects and symptoms, surgical therapy
can be resection and/or duodenal diversion eventually
combined with fundoplication. GoR C; ExC 100 %; SCC
89 %
Refluxate from the stomach and the duodenum/jejunum
contains a mixture of acid, bile, and pancreatic enzymes,
which can have a toxic effect on the esophageal mucosa
and other structures of the esophageal wall [14, 17, 18, 85,
93, 94]. The damaging potential of enteroesophageal reflux
was studied in the past by studying the effects of different
reconstruction methods after gastric and esophageal
resections [294–297]. In patients after gastric resection
with a short (\50 cm) jejunal limb reconstruction, in
patients with a small gastric remnant, or in patients with a
distal esophagectomy and gastric pull-up with an anasto-
mosis in the lower mediastinum, there is a high probability
of excessive enteroesophageal reflux with symptoms and/or
esophagitis, which should be investigated by the proper
methods followed by surgical correction [297–299].
Acknowledgments The panelists express their gratitude to the
EAES and the scientific community during the 21st EAES Congress
2013 in Vienna for their support of this work.
Disclosures Karl Hermann Fuchs, Benjamin Babic, Wolfram Bre-
ithaupt, Bernard Dallemagne, Abe Fingerhut, Edgar Furnee, Frank
Granderath, Peter Horvath, Peter Kardos, Rudolph Pointner, Edoardo
Savarino, Maud Van Herwaarden-Lindeboom, and Giovanni Zanin-
otto have no conflicts of interest or financial ties to disclose.
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